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Quantum computing is often heralded as the future but this article reveals the limits we’re still facing. Some problems may remain unsolvable even for quantum machines, reminding us that the next tech leap comes with its own set of challenges. Insightful read for anyone watching the quantum race. #QuantumComputing #TechInnovation #FutureOfTech #QuantumLimits #EmergingTech https://bit.ly/3XiMqL2

Is quantum computing coming to us sooner rather than later? Google's breakthrough 'Quantum Echoes' algorithm pushes us closer to useful quantum computing — running 13,000 times faster than on a supercomputer https://lnkd.in/gBkHNg8j

University research and private-sector breakthroughs have shown that quantum computing is real. But it’s only been proven on a small scale. https://lnkd.in/gjuwxAYd

In a major leap for quantum computing, Google has achieved the first verifiable quantum advantage, demonstrating an #algorithm that runs 13,000 times faster than the world’s most powerful supercomputers. The breakthrough was achieved using the company’s 105-qubit Willow chip, marking what Google described as “the first instance of a repeatable and verifiable #quantumcomputation that surpasses classical performance.” The result brings quantum computing a step closer to solving practical, real-world problems that were previously out of reach for classical systems. At the heart of this milestone lies Quantum Echoes, an algorithm developed by Google in collaboration with the University of California, Berkeley. The algorithm is designed to model how disturbances, or “echoes,” spread across qubits — the quantum equivalents of classical bits — enabling researchers to better understand quantum behavior and verify computational outcomes. https://lnkd.in/g4K78nt8

🚀 New Milestone in Quantum Computing: Google Achieves Verifiable Advantage Over Supercomputers Hello LinkedIn community! In the world of technology, quantum advances are redefining the boundaries of computing. Google has announced an impressive breakthrough: the first quantum algorithm that demonstrates a clear and verifiable advantage over traditional supercomputers. This isn't just theory; it's a concrete step toward a practical quantum era. 🔬 What Does This Verifiable Advantage Mean? This achievement solves a key challenge in quantum computing: proving that a quantum processor outperforms classical systems indisputably, without doubts about errors or noise. Google's team used their Willow processor, with 105 qubits, to execute the algorithm in just five minutes—a task that would take the world's most powerful supercomputer, Frontier, about 10 septillion years. Imagine that! 💡 Key Points from the Announcement: - The algorithm is based on a complex random sampling task, designed to be intractable on classical hardware but efficient on quantum. - It includes independent verifications, such as statistical tests, to confirm superiority without requiring blind faith in the results. - This milestone surpasses the 2019 one (quantum supremacy), as it is now "verifiable" by external experts, paving the way for real applications in cryptography, optimization, and molecular simulation. 🌟 Implications for the Future: This advance could accelerate the development of commercial quantum computers, impacting industries like pharmaceuticals (drug design) and logistics (route optimization). However, Google emphasizes that there are still challenges, such as scalability and error correction, but the progress is undeniable. For more information, visit: https://enigmasecurity.cl What do you think of this quantum leap? Do you believe we're close to seeing quantum computers in everyday life? Share your thoughts in the comments. 👇 #QuantumComputing #GoogleQuantum #AdvancedTechnology #TechnologicalInnovation #AIandQuantum Connect with me on LinkedIn for more insights on cybersecurity and technology: https://lnkd.in/eKynt-sy 📅 Wed, 22 Oct 2025 17:00:01 +0200 🔗Subscribe to the Membership: https://lnkd.in/eh_rNRyt

Is quantum computing coming sooner rather than later? Google's breakthrough 'Quantum Echoes' algorithm pushes us closer to useful quantum computing — running 13,000 times faster than on a supercomputer https://lnkd.in/g6eewuUv

The new Cátedra iDanae quarterly publication is now available: Quantum Computing — Strategic Insights for Decision-Makers. It examines how quantum computing is moving from theory into real applications in finance, energy, and healthcare, and what leaders can do today to prepare for tomorrow. The focus is on clarity, foresight, and collaboration rather than prediction. An interesting read for anyone interested in how scientific progress becomes strategic advantage. https://lnkd.in/eMHuXMNQ

Google has announced a significant leap in quantum computing, moving the technology from a theoretical promise toward real-world applications. Using their novel algorithm, "Quantum Echoes," on the Willow quantum chip, they've achieved two critical firsts. The system solved a complex problem—calculating the structure of a molecule—13,000 times faster than the fastest classical supercomputer. #Google #QuantumComputer

🚀 Google's Quantum Leap: A Game-Changer in Computing Google has achieved a major breakthrough in quantum computing. Their new algorithm, Quantum Echoes, performed a task 13,000 times faster than the world's fastest supercomputer. This marks the first time a quantum computer has completed a task that classical computers cannot replicate in a reasonable time. 🔍 What Does This Mean? Faster Problem Solving: Quantum computers can solve complex problems much quicker than traditional computers. New Possibilities: This could lead to advancements in medicine, materials science, and artificial intelligence. Closer to Real-World Use: While still in development, practical applications of quantum computing may be just a few years away. For a deeper dive into this groundbreaking achievement, read the full article here: 👉 https://lnkd.in/e_9-U7Ab #QuantumComputing #Innovation #Technology #Google #FutureOfTech #ArtificialIntelligence